论文标题
微图质气态探测器的紫外线激光测试台
A UV laser test bench for micro-pattern gaseous detectors
论文作者
论文摘要
用于校准气体探测器的紫外线激光器已经看到了新发现的使用,具有电流微图案气体探测器(MPGD),尤其是那些不适合通过设计约束的传统来源(例如宇宙射线或X射线束)测试的设备。这里描述了由紫外线激光器制成的紫外线激光器制成的紫外线激光器,并在此处描述,以及在时间投影GEM(TPG)的原型上执行的增益曲线和电子漂移速度的测量,以验证设置。
UV lasers for the calibration of gaseous detectors have seen newfound employment with current-generation micro-pattern gaseous detectors (MPGDs), especially those devices not suitable for tests with traditional sources (e.g. cosmic rays or X-ray beams) by design constraints. An apparatus made of a UV laser designed for the characterization of the fast timing MPGD (FTM) is here described, together with the measurements of gain curve and electron drift velocity performed on a prototype of Time Projection GEM (TPG) to validate the setup.
